I don't think an electric sander's motion could create a true 'gyroscopic effect' but It would definitely create a inertial effect similar to a gyroscope... Maybe this is what SM was referring to..
How could you emulate this effect with a solid state toroid?
Page 41:From Steven:
Carl is absolutely correct about most everything in his letter.
You I am sure have already realized that.
There are exact points of interest in 9 and 13.
Yes we are definitely spinning the field at an unbelievable high
rate.
Page 37 The Carl Doc:
9. Now to the question of the little pieces of wire and the magnet.
I don't remember anyone anwering this to your or Mr. Mark's
satisfaction.
Let me have a go.
When you move a magnet across a wire you generate a current in
that wire.
However, what was not iterated is that the amount of current
generated is not only a matter of the strength of the magnet, but
rather the SPEED and distance at which that magnet is moved
across that wire.
Thus when we speak of moving the magnet across a small piece of
wire at the speed of a gunshot, you generate a very sudden, high
voltage spike in that little piece of wire. Conversely, if you could
move that wire crossways through even a weak magnetic field
with few flux likes, you could generate a voltage spike.
In essence Mark is doing this in his toroid.
He states he is running at about 5kHz.
For four coils (like the one that is open on the cardboard box in his
garage with two lamps),
he may be banging two opposed coils
simultaneously with spikes, with the magnet forcing one direction,
or he is running them sequentially.
For the sequential version, that would mean the "magnetic flux
North" (for lack of a better way to describe it) passes one spot in
the toroid 1250 times per second.
The RPM of the flux would therefore be AT LEAST 75,000RPM.
Can you imagine the kind of power you might generate from Neo
mgnets in an armature near windings if you COULD rev that puppy
up to 75,000RPM?
Only this toroid has no back EMF when a load is put on the wires.
Remember I was talking about SPEED of the magnet passing the
wires playing a significant role in the voltage produced.
If we take the above example of 75,000 RPM, it is easy to calculate for a
14" diameter totoid, that the actual speed of the magnet "flying"past the
wires at a very close range would be 3,123.74 statute miles per hour or
4,581.5 ft/second.
Compare this to the bullet of a high powered rifle at 2,800 ft/sec.
Page 38 The carl Doc:
13. When we look at the earth's magnetic field, there are some
weird things to look at.
Does a high-speed rotational flux field draw or lense or
concentrate flux lines into a Mark device?
Maybe that is exactly what it does.
This simply ADDS more density to the field.
However, something else strikes me more simply.
Mark has set up his terrific sequential pulsed magnetic field with a
small battery (who cares if there is a battery - that point is moot
when you look at the power out) which rotates nearly twice as fast
as the bullet from a high powered rifle.
It creates enormous numbers of flux lines crossing wires per
second.
That is key and it takes little power.
Once power is established, one could take a tiny amount from the
output and run the circuit, so again the battery is moot.
The main thing is the device's strange reaction to physical
movement.
I attribute this to the ENORMOUS impact of the SPEED at which
the magnetic flux moves.
Nikola.